Forty five years ago, on this day, February 1 1978 the PBS “MacNeill Lehrer Report” had various smart people talking about the climate problems ahead (Robert Jastrow, Gordon MacDonald, Stephen Schneider, Clairborne Pell). They let Jastrow go first, shilling his Ice Age is Coming book. Then Gordon MacDonald, who had been warning about carbon dioxide build-up since 1968, and had helped write the first public facing report on it in 1970, was able to respond –
“GORDON MacDONALD: Bob Jastrow talked about the natural fluctuations in climate. I think that basically the picture he drew is correct, except he left out one important factor, that is, man. Man has been doing lots of things that are going to change climate in very significant ways. For example, he`s burning oil, gas, coal, putting the carbon dioxide into the atmosphere. He`s also clearing forests, turning lands that were once covered with biologically active material into areas that are no longer biologically active. That means that the carbon that was once fixed in those forests is now released into the atmosphere. These two effects plus a very important effect, that is, natural gas coming from deep within the earth, coming into the atmosphere and being oxidized, all lead to the greenhouse that you described.”
The amount of carbon dioxide in the air was roughly 333ppm. As of 2023 it is 419ppm, but check here for daily measures.
The context was
In 1977 the National Academy of Sciences had released a big fat report saying there was probably a problem about carbon dioxide buildup, and other books had been written in the mid 70s (e.g. Wilcox). So television producers, who were always needing to fill up space and to seem to have their finger on the pulse, will have looked upon this as a good topic. Schneider was a no-brainer. MacDonald and Jastrow were among the JASONs who had been up to their necks as well in ozone discussions, and MacDonald was at the time of this television appearance leading work on a JASON Technical Report “The Long Term Impact of Atmospheric Carbon Dioxide on Climate.”
What I think we can learn from this
These sorts of chin-stroking documentaries and discussion panels have been going on a long time. And at one point, certainly up to this point, they had their place. But since then they have become an opportunity for middle-class people who don’t want to get off their fat asses to say “oh, there’s still a debate going on.”
What is amusing about some of the denialists is they don’t admit (or perhaps even know) that some of the people they pointed to as ‘Big Scientists Who Disagree’ in the 1990s were Ice Agers. That doesn’t fit their narrative (though they never forget to cite the paper Stephen Schneider co-authored with Rasool in 1971…)
What happened next
The contestation over whether carbon dioxide buildup mattered led to a process in 1979 known as the Charney report, which said there’s no reason to think otherwise.
What do you think? Does this pass the ‘so what?’ threshold? Have I got facts wrong? Interpretation wrong? Do comment on this post.
Short version: he moved to Australia from the US in 1977, and spent the rest of his life there. He was a KEY communicator of the science, as well as being a very good scientist indeed. I think of him in the same bracket as the late Stephen Schneider (that’s about as high as praise goes, btw).
I remember him at the 2011 climate conference in Melbourne, during the white hot debates on Gillard’s so-called “carbon tax.” I spoke to him briefly, and watched him engage with other people who he didn’t know from Adam. He was courteous, thoughtful, calm (and this was at the time of lunatics brandishing nooses), and his answers to questions were supremely rich in fact and insight. He did this without ever ever seeming pompous or condescending.
He is a HUGE loss to the Australian (and global) science community.
Twenty one years ago, on this day, January 31, 2002, things began to fall apart.
31 January 2002–7 March 2002- the Larsen B sector collapsed and broke up, 3,250 km² of ice 220 m thick, covering an area comparable to the US state of Rhode Island, disintegrated and collapsed in one season.[6] Larsen B was stable for up to 12,000 years, essentially the entire Holocene period since the last glacial period, according to Queen’s University researchers
http://en.wikipedia.org/wiki/Larsen_Ice_Shelf
The amount of carbon dioxide in the air was roughly 371ppm. As of 2023 it is 419.
The context was folks had been talking about the impacts of greenhouse gas build-up on the Antarctic for a looooong time (try January 25, 1978)
What I think we can learn from this
Humans ignore warnings, especially if paying attention would be inconvenient to powerful people who have the ability to ‘help’ everyone else ignore those warnings. Profound observation, I know – it’s what you have spent all month enjoying, no?
What happened next
It helped the film-makers who gave us “The Day After Tomorrow”(2004) with their opening scene
In 2005 British Sea Power’s album Open Season included a song called “Oh Larsen B”
Sixty two years ago, on this day, January 30 1961, in a story that would later be used by incoherent denialists, Walter Sullivan, New York Times science reporter, reported that the world was… cooling.,
You see this clip on various denialist websites. You don’t see this below, from the same article.
This was in the context of a symposium in New York, attended by Hermann Flohn and Gilbert Plass, among others…
The amount of carbon dioxide in the air was roughly 317ppm. As of 2023 it is 419. .
The context was that global temperatures had been rising over the last 50 plus years (Guy Callendar had been one of many to spot this – his contribution had been to say it was down to carbon dioxide build-up). However, from about 1940, the amount of dust/smog/sulphur had increased the reflectiveness of the atmosphere, meaning some of the sun’s heat didn’t hit the Earth. So temperatures started falling…
What I think we can learn from this
The signal did not properly emerge from the noise until the 1970s (though the reason – smog/suplhur was well understood)
Denialists cherry-pick like mad, then project that onto people who… advocate for 19th century physics.
What happened next
The carbon dioxide kept accumulating. Sullivan kept covering it, forming good relationships with working scientists like Stephen Schneider (they met late 1972) and James Hansen.
What do you think? Does this pass the ‘so what?’ threshold? Have I got facts wrong? Interpretation wrong? Do comment on this post.
Twenty-two years ago, on this day, January 29 2001, newly-installed President George “Dubya” Bush announces an “energy taskforce”
The National Energy Policy Development Group was a group, created by Executive Order on January 29, 2001, that was chaired by Vice President Richard Cheney. The group, commonly referred to as the “Cheney Energy Task Force,” produced a National Energy Policy report in May 2001. [1] In a cover note to George W. Bush, Cheney wrote that “we have developed a national energy policy designed to help bring together business, government, local communities and citizens to promote dependable, affordable and environmentally sound energy for the future.” [2] (pdf) The composition of the task force, according to the report, was confined to government officials.
The amount of carbon dioxide in the air was roughly 371ppm. As of 2023 it is 419.
The context was that Bush had won the Presidency (if not the actual election – but, you know, details) with the help of his Dad’s mates on the Supreme Court. The power behind the throne, Dick Cheney, was clearly interested in coal and nuclear, not this carbon emissions reductions nonsense. So, there had to be a process for backtracking on loose talk of regulating carbon emissions that had been made during the campaign. A “taskforce” should do the job…
What I think we can learn from this
Taskforces are absolute catnip to liberals.
They function either as “cooling out the mark” – the way that a promise can be broken (“we consulted independent experts.. Changed circumstances… therefore…”), or as a way of delaying (perhaps indefinitely) any actual ACTION on promises, while offering CV tokens and grin-and-grip opportunities to would-be trouble-makers, who become obsessed with maintaining their spot at the table, rather than actually keeping tabs on what is (not) being done, or building political power outside ‘the Beltway’/’Westminster’ etc.
What happened next
Bush pulled the US out of the Kyoto Protocol negotiations, and started mangling the language in the direction of absurd techno-fantasies. True leadership.
Cheney fought two legal challenges against releasing the records of this Taskforce. Of course he did.
Ten years ago, on this day, January 28, 2013, it all went wrong…
“Energy efficiency policy in the UK is at a watershed. On January 28th 2013, the Green Deal formally began operation. The Green Deal is a market-based, demandled financial mechanism providing up-front loans for energy efficiency measures, which are repaid using the energy savings. A new Energy Company Obligation will run alongside the Green Deal to support vulnerable customers, poorer communities and higher cost insulation measures. A commercial sector Green Deal is also planned”
Sounds great. Um…
“So what went wrong? The Green Deal was an example of a ‘Pay-as-you-save’ type scheme, where loans are taken out to pay for the energy efficiency measures, and repaid over time from the financial savings created by these measures. It seems like a no-cost solution and an obvious winner. But not the British government’s version of it. One of the reasons for this failure was pointed out right at the start by critics, but ignored by government officials responsible for designing the scheme. This was that the 7-10% APR interest rate on the loan to householders was too high – in fact several percentage points higher than ordinary loans available on the high street. It was simply not affordable.
It also made many measures unaffordable within its own context – the ‘Golden Rule’. This rule was embedded into the legislation and stipulated that the savings generated by energy efficiency measures must lie within the cost of the measures. The Green Deal was initiated in 2013 under the 2011 Energy Act. It came with no target or grants. It combined accredited energy advice and installation with finance to be repaid in a period up to 25 years. Finance was attached to the property, and recouped through extra charges on the electricity bill (even if the savings were made on a different fuel, say gas).
The result? 300,259 total Green Deal assessments resulted in only 1,815 ‘live’ plans – a conversion rate of just 0.6%”
The amount of carbon dioxide in the air was roughly 396ppm. As of 2023 it is 419.
.
The context was that there was a Coalition government in the UK, and the Liberal Democrats were trying to get the elephants that are Departments of State to tapdance.
What I think we can learn from this
This stuff is difficult. Wicked. Superwicked, superwicked on acid and steroids. And we’re all gonna die. We are toast, but we are not going to be toasty, at least not in winter…
What happened next
Another, smaller, scheme went tits up in 2021. And millions were screwed by energy price spikes in 2022, 23 , 24 and so on until the apocalypse…
What do you think? Does this pass the ‘so what?’ threshold? Have I got facts wrong? Interpretation wrong? Do comment on this post.
Thirty-seven years ago, on this day, January 27 1986, engineers at the company Morton-Thiokol were begging their own bosses, and NASA administrators, to delay the launch of the Challenger Space Shuttle. They feared it could explode on the launch pad, because seals keeping fuel away from air were not going to work because the rubber they were made of had lost its elasticity, thanks to unexpected sub-zero temperatures in Florida.
As per the Wikipedia entry about one of the engineers, Roger Boisjoly.
Following the announcement that the Challenger mission was confirmed for January 28, 1986, Boisjoly and his colleagues tried to stop the flight. Temperatures were due to fall to −1 °C (30 °F) overnight. Boisjoly felt that this would severely compromise the safety of the O-ring and potentially the flight.
The matter was discussed with Morton Thiokol managers, who agreed that the issue was serious enough to recommend delaying the flight. NASA protocols required all shuttle sub-contractors to sign off on each flight. During the go/no-go telephone conference with NASA management the night before the launch, Morton Thiokol notified NASA of their recommendation to postpone. NASA officials strongly questioned the recommendations, and asked (some say pressured) Morton Thiokol to reverse its decision.
The Morton Thiokol managers asked for a few minutes off the phone to discuss their final position again. The management team held a meeting from which the engineering team, including Boisjoly and others, were deliberately excluded. The Morton Thiokol managers advised NASA that their data was inconclusive. NASA asked if there were objections. Hearing none, NASA decided to launch the STS-51-LChallenger mission.
https://en.wikipedia.org/wiki/Roger_Boisjoly
The amount of carbon dioxide in the air was roughly 348.8ppm. As of 2023 it is 419.
The context was NASA was under a lot of pressure to launch, because of previous delays and because there was a civilian – a teacher called Christa McAuliffe – on board.
What I think we can learn from this
Hierarchies are “reality distortion fields”. But reality – especially physics and chemistry – will impinge, sooner or later.
It’s probably a good idea to listen to scientists and engineers who say something is really unsafe.
There is such a thing as “organisational decay” – Organizational decay is a condition of generalized and systemic ineffectiveness. It develops when an organization shifts its activities from coping with reality to presenting a dramatization of its own ideal character. In the decadent organization, flawed decision making of the sort that leads to disaster is normal activity, not an aberration. Three aspects of the development of organizational decay are illustrated in the case of the US National Aeronautics and Space Administration. They are (1) the institutionalization of the fiction, (2) personnel changes in parallel with the institutionalization of the fiction, and (3) the narcissistic loss of reality among management.
What happened next
In case you didn’t know, the Challenger was torn apart 73 seconds into its flight.
Boisjoly spent the rest of his life trying to get other people to learn from what had happened. By all accounts, a mensch.
What do you think? Does this pass the ‘so what?’ threshold? Have I got facts wrong? Interpretation wrong? Do comment on this post.
Schwartz, H. 1989. Organizational disaster and organisational decay: the case of the National Aeronautics and Space Administration. Industrial Crisis Quarterly, 3, pp.319-334.
And a blog post of mine, inspired by reading Schwartz
Fifty three years ago, on this day, January 26, 1970, a Nixon-era scientist (a professor in Applied Physics no less) called Hubert Heffner expressed (understandable!) uncertainty about climate change. In September the previous year Daniel Moynihan had written a memo – now famous on the internet – about the possible consequences of carbon dioxide build-up.
“Moynihan received a response in a Jan. 26, 1970, memo from Hubert Heffner, deputy director of the administration’s Office of Science and Technology. Heffner acknowledged that atmospheric temperature rise was an issue that should be looked at.
“The more I get into this, the more I find two classes of doom-sayers, with, of course, the silent majority in between,” he wrote. “One group says we will turn into snow-tripping mastodons because of the atmospheric dust and the other says we will have to grow gills to survive the increased ocean level due to the temperature rise.”
Heffner wrote that he would ask the Environmental Science Services Administration to look further into the issue.
The amount of carbon dioxide in the air was roughly 325ppm. As of 2023 it is 419.
The context was the US administration of Nixon was trying to use environmental issues to change the conversation in Europe, away from, well, you know, napalming Vietnamese children. That’s part of the context of the Moynihan memo. The Germans were underwhelmed by this as a tactic. Meanwhile, the United Nations bureaucracy was grinding forward with preparations for the Stockholm conference, to be held in June 1972.
What I think we can learn from this
It was still okay at this point to be just not quite sure. We must not allow hindsight to condemn folks for not knowing for sure (I think by late 1970s that argument becomes much much less viable).
What happened next
In August 1970 the first Council on Environmental Quality report came out, with a chapter written by Gordon MacDonald – see here .
What do you think? Does this pass the ‘so what?’ threshold? Have I got facts wrong? Interpretation wrong? Do comment on this post.
One of the reasons I have continued with All Our Yesterdays is because there are definitely lots of smart activists and academics out there doing great work who deserve a signal boost and the chance to cross-fertilise. One such person is Prof. Cyrus Mody… who kindly agreed to this interview. (If you read Dutch, check out this interview too).
1) Who are you and how did you come to be working on the 1970s Oil Industry from a perch in Netherlands?
I’m an historian of science and technology at Maastricht University. A lot of my research wanders into business history, environmental history, energy history – but my PhD is in Science and Technology Studies, and I approach all my research from the direction of science and technology. That’s perhaps my main contribution as a scholar – to get historians of science to think more about business, and to get business, environmental, and energy historians to think more about science (and to get all of them to think more about technology). Until recently, I was making those points mostly with respect to fields related to the microelectronics industry – fields like semiconductor physics, electrical engineering, nanotechnology, materials science. But in the course of that research (and in reading the secondary literature on similar science-oriented industries such as biotechnology) I noticed that the oil industry was absolutely everywhere in high-tech (and yet hardly anyone had pointed out that ubiquity). So around 2012 I started preliminary work on the project that became Managing Scarcity and Sustainability by trying to map all the “spillovers” from the oil industry into other high-tech domains that I could find.
At the time I was at Rice University in Houston – a great place to do oil history and energy humanities, and a wonderful place to be an untenured assistant professor because I had a lot of freedom to teach what I wanted and enough resources for the kind of research I was doing at the time. But I could see that I couldn’t study all the oil spillovers I was uncovering on my own – that would require becoming an expert in the history of too many fields, each of which deserved its own study. For reasons I won’t go into, at Rice I was never going to be able to put together the kind of team needed to tackle this topic. But in the Netherlands, team projects are common. It wasn’t an easy decision to move, but in doing so I’m now surrounded by a much more vibrant local/regional history of science and technology and STS community than I was in Houston, and I’ve been able to hire an incredible team (Odinn Melsted, Jelena Stankovic, and Michiel Bron) to work on Managing Scarcity.
2) Tell us about , “Managing Scarcity and Sustainability: The Oil Industry, Environmentalism, and Alternative Energy in the Age of Scarcity.” – what is the project, and how might it help us understand what is going on now?
Managing Scarcity and Sustainability (https://managingscarcity.com/) is a five-year project funded by the NWO (usually translated as Dutch Research Council; award VI.C.191.067). Our main focus is oil actors’ involvement in the global debate about resource scarcity, environmentalism, and sustainable growth/development in the “long 1970s” (which we usually define as the years 1968 to 1986). By “oil actors” we mean, firstly, oil firms as well as allied firms and trade associations; but we also mean individual oil executives and scientists and engineers with oil industry experience, as well as the firms (e.g., solar energy start-ups) and organizations (e.g., philanthropic foundations) that those individuals led.
The project is sort of two-pronged: on the one hand, we look at the technologies that oil firms (and the start-ups they invested in) developed in response to growing awareness of resource scarcity and environmental problems. Here, we’re mainly interested in solar, geothermal, and nuclear (both fission and fusion) energy as well as auxiliary technologies such as biotechnology, artificial intelligence, and nanotechnology; but we’re also trying to draw in researchers who are studying other oil spillovers, e.g., wind energy or fuel cells and advanced batteries. The oil industry was deeply involved in lots of alternative energy in this period, but pulled back (in many cases, abandoned) those investments in the 1980s.
The other prong looks at a network of current and former oil executives who stoked the global debate on resource scarcity, environmental problems (including climate change), and sustainable development. At the center of that network were: Robert O. Anderson (chair of both Atlantic Richfield – a mid-size oil company – and the Aspen Institute, as well as donor to many other environmental organizations and think tanks); Maurice Strong (a Canadian diplomat, chair of the 1972 UN Conference on the Human Environment and the 1992 UN Rio Conference on Environment and Development, but also an executive or board member with various oil companies including Ajax, Dome, Petro-Canada, and Tosco); and George Mitchell (often known as the “father of fracking” but also the sponsor of a series of Limits to Growth conferences and other environmental/sustainable development activities). Through collaboration with the Club of Rome, the United Nations, the Nobel Foundation, and an array of think tanks, this network was incredibly influential in the emergence of institutions of global environmental governance from the 1970s until the early 1990s.
What can we learn from this? Well, first, that climate denialism and obstruction weren’t inevitable. All across the oil industry in the 1970s executives were publicly saying that we would need to rely more on non-fossil fuels: nuclear fission in the short term, geothermal in the medium term, and nuclear fusion and solar in the long term (by which they meant after the year 2000). And their companies invested accordingly. We’ve also known for a while that oil firms were aware of climate change in this period; but members of the Anderson-Strong-Mitchell network weren’t just aware of it, they were some of the loudest voices in the world drawing attention to it and calling for global governance structures to address it. Which means, second, that we have to look for a more complex explanation for why denialism became a more common strategy from the late 1980s onward. Our working hypothesis is that the declining price of oil meant these firms had less cash to invest for the long term. But, perhaps more importantly, the election of neoliberal regimes in the US, UK, Netherlands, Canada, and elsewhere meant those firms could no longer rely on the state as a partner in development of both alternative energy and climate regulation. Neoliberalism also encouraged hostile takeover bids by people like T. Boone Pickens, which forced oil firms both to liquidate assets in order to fend off those bids, and also to refocus on their “core competency” of getting oil out of the ground in order to assure investors that their main priority would be short-term returns rather than responsible long-term development of alternatives.
3) What is the “nanobubbles” project? What inspired it, what has it achieved, what next?
NanoBubbles is a large project funded by the European Research Council’s Synergy program (award 951393). We are a couple dozen researchers across more than a half-dozen universities in the Netherlands and France, drawn from history, sociology, philosophy, library science, computer science, nanoscience, STS, and other fields. The aim is to better understand the difficulties that scientists face in attempting to correct the scientific record, and also to study the systemic inducements to exaggeration, defense of erroneous claims, and even outright fraud in science. Some members of the group have personally experienced damaging repercussions from their attempts to correct errors in the scientific record; others have developed tools and approaches for studying some of the channels through which errors propagate (e.g., journal articles). My own interest stems in part from my earlier work on nanotechnology and in part from my current work (within Managing Scarcity) on climate denialism and on the oil industry’s inflation of “bubbles” in high-tech fields such as biotechnology and artificial intelligence. We’re about 18 months into the project, a lot of which was spent on hiring people and getting our infrastructure in place (e.g., ethics protocols), so our achievements thus far are mostly preparatory to what comes next; but I’d point you to work by some members of the project (Guillaume Cabanac, Cyril Labbé, and colleagues) on “tortured phrases” as an example of what we’re working on (https://www.nature.com/articles/d41586-021-02134-0). Ultimately, at least in the Maastricht corner of the project (i.e., myself, Candida Sanchez Burmester, and Max Rossman), we’d like to do both traditional, labor-intensive qualitative research (participant observation at labs and conferences, historical research at archives) and also develop automated tools for scaling up qualitative research to much larger Ns in order to better understand how claims and counter-claims do or don’t circulate through (and gain traction within) scientific communities.
4) What do you think the main thing academics/politicians/activists/citizens need to understand/do differently around energy to help us miss our climate targets by a smaller margin than we otherwise would?
Well, energy and climate are too complex to point to a single “main thing.” But the lessons I’d draw from Managing Scarcity and NanoBubbles are these: denialism and obstruction weren’t inevitable, and at one point a significant portion of the oil industry was working toward some kind of transition in both technology and governance; oil firms bear plenty of blame for their later support of denialism, but there are other actors (particularly neoliberal politicians and economists as well as the financial industry) who bear lots of blame too (and if we only address the oil industry but not those other actors we’ll never actually resolve the core issues); but even if some oil actors of the 1970s (people like Strong and Anderson) were moving in a more positive direction than that of their successors, their program was still too oriented to technological solutionism and economic growth; instead, we need an approach that prioritizes cultural change over (though not necessarily exclusive of) technological innovation, and that is willing to entertain alternatives to economic growth.
Ten years ago, on this day, January 25, 2013, one of the white men who has been born with a “safe pair of hands” had the good grace to admit that he’d misunderestimated the speed and breadth of climate impacts. Nick Stern, former World Bank economist, had been tapped on the shoulder by then-Treasurer Gordon Brown in 2005, and had produced a report (“the Stern Review” on the Economics of Climate Change). Interviewed by two Guardian journos at Davos 6 years after its release, he said
“Looking back, I underestimated the risks. The planet and the atmosphere seem to be absorbing less carbon than we expected, and emissions are rising pretty strongly. Some of the effects are coming through more quickly than we thought then.” (Had I known this), “I think I would have been a bit more blunt. I would have been much more strong about the risks of a four- or five-degree rise.”
The amount of carbon dioxide in the air was roughly 395.8ppm. As of 2023 it is 419.
The context was that the international climate negotiations were beginning to crank up for the next “big” meeting (Paris 2015) and folks at Davos (where the rulers of the world and their consiglieres, lackeys and hangers-on go to be seen) were making the right noises.
What I think we can learn from this
The people with the safe pairs of hands? Always ask yourself – safe for WHO? Safe for WHAT?
What happened next
Davos kept going (everyone should read Thomas Mann’s The Magic Mountain, imo. It’s set in Davos, but with a different cast of characters, different sensibility.). The Paris Agreement happened. And everyone was saved.
What do you think? Does this pass the ‘so what?’ threshold? Have I got facts wrong? Interpretation wrong? Do comment on this post.